KR100680211B1 - Mobile communication terminal and power calculation method for the same - Google Patents

Abstract

A mobile communication terminal and a transmission power calculation method thereof are provided to measure the size of a signal at two points of a path that a signal is transceived through the mobile communication terminal and calculate the transmission/reception power of the mobile communication terminal based on the measured size, thereby preventing errors generated due to reflection of signals when calculating the transmission and reception power of the mobile communication terminal. A mobile communication terminal comprises the followings: an antenna(10); a signal processor(20) which separates transmission and reception paths of a signal transceived through the antenna(10) and processes the transceived signal; and a power measurer(30) for calculating transmission or reception power by measuring a signal size at two or more points of the signal processor(20). The signal processor(20) comprises the followings: an amplifier(22) for amplifying the signal transmitted from the mobile communication terminal; and a duplexer(21) for separating a path of a transmission signal amplified in the amplifier(22) from a transmission path of a signal received through the antenna(10).

Description

Mobile Communication Terminal and Power Calculation Method for the Same

1 is a view showing the internal structure of a conventional mobile communication terminal,

2 is a diagram showing the internal structure of a first embodiment of a mobile communication terminal according to the present invention;

3 is a diagram showing the internal structure of a second embodiment of a mobile communication terminal according to the present invention;

4 is a diagram showing the internal structure of a third embodiment of a mobile communication terminal according to the present invention.

<Explanation of symbols on main parts of the drawings>

10, 40, 70: antenna 20, 50, 80: signal processing unit

30, 60, 90: power measuring unit

The present invention relates to a mobile communication terminal and a method for calculating a transmission power thereof, and in particular, a mobile communication terminal capable of minimizing an error in measuring power of a signal transmitted from a mobile communication terminal and calculating a transmission power as an output power. The present invention relates to a transmission power calculation method.

 The mobile communication terminal transmits / receives data to / from the outside or provides a phone call function by transmitting / receiving a radio signal through an antenna, and the mobile communication terminal transmits and receives signals through the antenna as shown in FIG. It comprises a duplexer (2) for separating the transmission path of the.

At this time, the mobile communication terminal calculates the transmission power which is the output power of the mobile communication terminal by measuring the power of the signal transmission path when transmitting a signal to the outside.

That is, referring to FIG. 1, an example in which a transmission power is calculated when a signal is transmitted in a mobile communication terminal will be described. A high power detector (HDET) 4, which is a device for measuring power, is placed between the separating duplexers 2, and the transmission power is calculated through the power measured by the HDET 4.

That is, the control unit of the mobile communication terminal extracts a very small portion of the power delivered to the transmission line through the HDET (4) and measures the magnitude thereof, and adds the measured value and the correction value obtained through the calibration process to be delivered to the line. The actual amount of power will be calculated.

At this time, the HDET (4) for measuring the power size of the transmission signal is located between the amplifying unit (3) and the duplexer (2) as shown by the solid line, or the duplexer (2) as shown by the dotted line ) And the antenna 1.

However, in the conventional mobile communication terminal, the value measured through the HDET 4 is proportional to an envelope of a voltage waveform at a point on the line to which the HDET 4 is connected, that is, a sensing point. The envelope is formed by the sum of the forward power traveling from the amplifier 3 to the antenna 1 and the reverse power reflected back.

Therefore, there is a problem in that the forward power output to the antenna 1 is not accurately measured, and an error is generated by the magnitude of the reverse power.

The present invention has been made to solve the above problems of the prior art, the purpose of which is to prevent the error of signal measurement caused by the reflection of the signal on the transmission line of the mobile communication terminal in calculating the transmission power of the mobile communication terminal The present invention provides a mobile communication terminal and a transmission power calculating method thereof.

According to an aspect of the present invention, there is provided a mobile communication terminal comprising: an antenna, a signal processing unit for separating transmission and reception paths of signals transmitted and received through the antenna and processing transmission and reception signals, and at least two of the signal processing units. The first aspect of the present invention comprises a power measurement unit that calculates a transmission or reception power by measuring a signal size at the above point.

In addition, the mobile communication terminal according to the present invention includes an antenna, a signal processor for separating a transmission and reception path of a signal transmitted and received through the antenna and processing a transmission and a reception signal, and at least two or more between the antenna and the signal processor. The second aspect of the present invention includes a power measurement unit that calculates a transmission or reception power by measuring a signal size at a point.

In addition, the mobile communication terminal according to the present invention includes an antenna, a signal processing unit for processing signals transmitted and received through the antenna, a signal transmission to the antenna through the signal processing unit or a signal reception unit to the signal processing unit through the antenna. In the mobile communication terminal comprising a power measuring unit for calculating a transmission power or a reception power, the power measurement unit calculates the transmission power or the reception power by measuring the signal magnitude at at least two points of the transmission path of the transmission signal or the reception signal. It is characterized by the third feature.

In addition, the method of calculating the transmission power of a mobile communication terminal according to the present invention is a method of calculating the transmission power of a mobile communication terminal, wherein the power of the transmission signal is measured at at least two or more points of the signal transmission path of the mobile communication terminal. And a second step of calculating a transmission power using the power measured in the first step.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in FIG. 2, the first embodiment of the mobile communication terminal according to the present invention transmits an antenna 10 capable of transmitting and receiving wireless data to and from the outside, and transmission and reception signals of the antenna 10 and the mobile communication terminal. Signal processing unit 20 for separating the path and processing to transmit and receive, and a power measuring unit for calculating the transmission power or the receiving power of the mobile communication terminal by measuring the power of the signal size at two points in the signal processing unit 20 It consists of 30.

In this case, the antenna 10 may be configured as a multi-band antenna 10 capable of receiving a signal according to the multi-band, if necessary, in this case, the signal processor 20 to process the signal according to the multi-band It is provided with at least one.

Meanwhile, as shown in FIG. 2, the signal processor 20 includes a duplexer 21 that separates a transmission path of a signal transmitted and received through the antenna 10 and a magnitude of a signal transmitted through the antenna 10. It consists of an amplifier 22 for amplifying.

In addition, the power measuring unit 30 extracts a portion of the power delivered to the transmission line and measures the magnitude thereof, and adds the measured value and the correction value obtained through the calibration process to determine the magnitude of the actual power delivered to the line. It can be implemented by the HDET element 31 to be calculated.

At this time, as shown, the HDET 31 of the power measuring unit 30 is connected to two points between the duplexer 21 and the amplifier 22 through the resistors R31 and R32 to the transmission line. Measure the amount of power delivered. The sizes of the resistors R31 and R32 should be large enough not to interfere with power transmission in the transmission line, but may be changed as necessary.

On the other hand, the interval (D30) between the resistor (R31, R32) is located between the duplexer 21 and the amplifier 22 is 1/4 of the waveform of the power transmitted through the transmission line. This is because forward power transmitted from the amplifier 22 toward the duplexer 21 and reverse power reflected back to the antenna 10 exist in the transmission line when power is transmitted through the transmission line. .

In other words, in the case of forward power, all the same distances are moved through the first resistor R31 to the HDET 31 element or through the second resistor R32 to the HDET 31. Therefore, it becomes in phase and can be measured by the HDET 31.

However, in the case of the reverse power, a distance difference corresponding to 1/2 of the wavelength is generated between the power transmitted to the HDET 31 through the path a or the power transmitted to the HDET 31 through the path b. . That is, a phase difference of 180 ° occurs between the power transmitted through the path a and the power transmitted through the path b, thereby canceling the reverse power.

Therefore, only the forward power can be measured in the HDET 31.

3 is a diagram showing the inside of a second embodiment of a mobile communication terminal according to the present invention.

As shown, the mobile communication terminal according to the present invention includes an antenna 40 for transmitting and receiving wireless data to and from the outside, and a signal processing unit for separating and transmitting and transmitting transmission paths of signals transmitted and received through the antenna 40 ( 50 and a power measuring unit 60 for measuring power on a transmission line and measuring transmission or reception power at at least two points between the antenna 40 and the signal processing unit 50.

Hereinafter, the case of measuring the transmission power in the second embodiment will be described as follows. The signal processing unit 50 of the mobile communication terminal, similar to the first embodiment, an amplifier 52 for amplifying a transmission signal, The duplexer 51 separates a transmission path of the transmission signal amplified by the amplifier 52 and the reception signal received through the antenna 40.

In addition, as shown, the power measuring unit 60 includes resistors R61 and R62 connecting arbitrary two points between the duplexer 51 and the antenna 40 and the resistors R61 and R62. It is composed of HDET (61) element is connected to the and measures the power on the transmission line.

In this case, the resistors R61 and R62 are connected with a predetermined distance difference D60 on the transmission path, and the distance difference corresponds to 1/4 of a waveform of power to be measured on the transmission path.

Therefore, in the second embodiment, only the forward power can be measured as in the case of the first embodiment. This means that in the case of forward power, the HDET 61 passes through the same distance, whether passed through the first resistor R61 to the HDET 61 element or through the second resistor R62 to the HDET 61 element. This is because the phase does not occur because it is transferred to the element.

However, in the case of the reverse power, a 180 ° phase difference occurs between the power delivered to the HDET 61 through the path a and the power delivered to the HDET 61 through the path b, so that the HDET 61 cancels each other. Not measured.

4 is a diagram illustrating a third embodiment of a mobile communication terminal according to the present invention.

As shown, the mobile communication terminal of the present invention is a mobile communication terminal capable of providing a call function according to a multi-band radio signal. A signal processor 80 for separating a signal for each band and a transmission / reception path for processing by a mobile communication terminal, between the multi-band antenna 70 and the signal processor 80 and within the signal processor 80 It is composed of a power measuring unit 90 for measuring the power at the point to calculate the transmission or reception power.

Hereinafter, the mobile communication terminal according to the present invention will be described according to the method for measuring the transmission power thereof.

As shown, the signal processing unit 80 separates a transmission / reception path of a signal separated for each band through the first duplexer 81 and the first duplexer 81 for separating the multi-band transmission signal for each band. And second and third duplexers 82 and 83, and amplifiers 84 and 85 for amplifying a transmission signal to be transmitted by the mobile communication terminal and transmitting the amplified signals to the second and third duplexers 82 and 83.

Meanwhile, the power measuring unit 90 may include a first resistor R91 connected between the multiband antenna 70 and the first duplexer, and between the first duplexer 81 and the second duplexer 82. Power is supplied through the second resistor R92 connected to each other, the third resistor R93 connected between the first duplexer 81 and the third duplexer 83, and the resistors R91, R92, and R93. It consists of an HDET 91 element that is measured and the transmission power is calculated.

In this case, the distance D91 between the first resistor R91 and the second resistor R92 and the distance D92 between the first resistor R91 and the third resistor R93 may be implemented. As in the example, it corresponds to a quarter of the waveform of the power to be measured.

Accordingly, if the waveform of the power of the signal transmitted from the second duplexer 82 and the 84 amplifier is λ 1, the distance D 91 between the first resistor R 91 and the second resistor R 92 is λ 1/4. Corresponds to

Likewise, if the waveform of the power of the signal transmitted from the third duplexer 83 and the 85 amplifier is lambda 2, the distance D92 between the first resistor R91 and the third resistor R93 is equal to lambda 2/4. Corresponding.

Accordingly, the HDET 91 element may measure only the magnitude of the forward power without being affected by the signal reflected through the antenna 70.

Therefore, in the case of the mobile communication terminal according to the present invention, the power of the signal to be transmitted is first measured in measuring the transmission power, wherein the power is measured at at least two points of the signal transmission path of the mobile communication terminal. The distance between the points is one quarter of the wavelength of the power to be measured.

With reference to the measured power, the mobile communication terminal can calculate the output power of the mobile communication terminal without interference or influence of the reverse signal reflected by the antenna.

The mobile communication terminal and the transmission power calculating method of the present invention configured as described above measure the magnitude of the signal at at least two or more points in the path through which the signal is transmitted or received through the mobile communication terminal and transmit the mobile communication terminal based thereon. By calculating the power or the reception power, there is an effect of preventing an error caused by the reflection of a signal when calculating the transmission power or the reception power of the mobile communication terminal.

Claims (12)

An antenna; A signal processor for separating transmission and reception paths of signals transmitted and received through the antenna and processing transmission and reception signals; And a power measurement unit for measuring a signal size at at least two or more points of the signal processing unit and calculating transmission or reception power. The method of claim 1, The signal processor comprises an amplifier for amplifying a signal transmitted from a mobile communication terminal; And a duplexer for separating a transmission path of a signal amplified by the amplifier and a signal received through the antenna. The method of claim 2, The power measuring unit is configured to measure the transmission power by sensing the power of the two points between the amplifier and the duplexer. The method of claim 3, wherein The distance difference between two points at which the power measuring unit senses power is 1/4 of the wavelength of the power to be measured. An antenna; A signal processor for separating transmission and reception paths of signals transmitted and received through the antenna and processing transmission and reception signals; And a power measurement unit for measuring a signal size at at least two points between the antenna and the signal processing unit to calculate a transmission or reception power. The method of claim 5, The signal processor comprises an amplifier for amplifying a signal transmitted from a mobile communication terminal; And a duplexer for separating a transmission path of a signal amplified by the amplifier and a signal received through the antenna. The method of claim 5, The distance difference between the two points for sensing the power in the power measuring unit is a mobile communication terminal, characterized in that 1/4 of the wavelength of the power to be measured. The method of claim 5, When the mobile communication terminal is a multi-band mobile communication terminal, The mobile communication terminal is characterized in that it comprises at least two signal processing unit to process a signal according to each band. An antenna; A signal processor which processes a signal transmitted and received through the antenna; In the mobile communication terminal comprising a power measuring unit for calculating the transmission power or the reception power when transmitting a signal to the antenna through the signal processing unit or the signal processing unit through the antenna, And the power measuring unit calculates a transmission power or a reception power by measuring a signal magnitude at at least two points of a transmission path of the transmission signal or the reception signal. The method of claim 9, And a distance difference between the two points at which the signal magnitude is measured through the power measuring unit is 1/4 of a signal waveform to be measured. In the method for calculating the transmission power of the mobile communication terminal, A first step of measuring power of a transmission signal at at least two points in a signal transmission path of a mobile communication terminal; And a second step of calculating a transmission power by using the power measured in the first step. The method of claim 11, The distance difference between the two points measuring the power in the first step is a transmission power calculation method of the mobile communication terminal, characterized in that 1/4 of the wavelength of the power to be measured.

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